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Light links computer components

Posted: 03 Dec 2014     Print Version  Bookmark and Share

Keywords:optical link  photons  silicon 

In the future, computers will use light to carry data instead of electrical wires, thanks to a new technology developed by engineers at Stanford University. The team has recently designed and built a prism-like device that can split a beam of light into different colours and bend the light at right angles.

They describe what they call an "optical link" in an article in Scientific Reports.

The optical link is a tiny slice of silicon etched with a pattern that resembles a bar code. When a beam of light is shined at the link, two different wavelengths (colours) of light split off at right angles to the input, forming a T shape. This is a big step towards creating a complete system for connecting computer components with light rather than wires.

"Light can carry more data than a wire, and it takes less energy to transmit photons than electrons," said electrical engineering Professor Jelena Vuckovic, who led the research.

Silicon slice

This tiny slice of silicon, etched in Jelena Vuckovic's lab at Stanford with a pattern that resembles a bar code, is one step on the way towards linking computer components with light instead of wires. (Source: Vuckovic Lab)

In previous work, her team developed an algorithm that did two things: It automated the process of designing optical structures and it enabled them to create previously unimaginable, nanoscale structures to control light.

Now, she and lead author Alexander Piggott, a doctoral candidate in electrical engineering, have employed that algorithm to design, build and test a link compatible with current fibre optic networks.

Creating a silicon prism

The Stanford structure was made by etching a tiny bar code pattern into silicon that split waves of light like a small-scale prism. The team engineered the effect using a subtle understanding of how the speed of light changes as it moves through different materials.

What we call the speed of light is how fast light travels in a vacuum. Light travels a bit more slowly in air and even more slowly in water. This speed difference is why a straw in a glass of water looks dislocated.

A property of materials called the index of refraction characterises the difference in speed. The higher the index, the more slowly light will travel in that material. Air has an index of refraction of nearly 1 and water of 1.3. Infrared light travels through silicon even more slowly: it has an index of refraction of 3.5.

The Stanford algorithm designed a structure that alternated strips of silicon and gaps of air in a specific way. The device takes advantage of the fact that as light passes from one medium to the next, some light is reflected and some is transmitted. When light travelled through the silicon bar code, the reflected light interfered with the transmitted light in complicated ways.


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